Spreading disc brake with removable shoes

ABSTRACT

A brake assembly comprising a brake housing adapted for attachment to a wheel of a wheel assembly for rotation with the wheel. The brake housing has oppositely disposed annular braking surfaces spaced apart to provide an annular gap therebetween. Brake shoes are located between the annular braking surfaces and are capable of movement towards or away from one another but held against circumferential movement by co-operating with a fixed support. Brake shoe operating members are disposed between the brake shoes and are movable by a brake actuator to move the brake shoes away from one another to cause each brake shoe to contact the adjacent annular braking surface of the brake housing to effect braking, the brake shoes being removable or replaceable from or into the annular gap in the radial direction thereof without dismantling the brake assembly.

United States Patent 11 1 Klaue 14 1 May 27, 1975 SPREADING DISC BRAKE WITH REMOVABLE SHOES [76] Inventor: Hermann Klaue, Tour dlvoire 24e,

Related US. Application Data [63] Continuation-impart of Ser. No. 73,566, Sept. 18,

1970, abandoned.

[30] Foreign Application Priority Data [58} Field of Search 188/713, 7L4, 73.6, 72.2; 192/70, 70.13

[56] References Cited UNITED STATES PATENTS 2,652,912 9/1953 Bernardo.........................192/7013 2,998,103 8/1961 Klaue..... 1ss/72.2x 3,425,518 2/1969 Morr0w.... ..1as/71.4

FOREIGN PATENTS OR APPLICATIONS l,0l4,857 8/1957 Germany l88/7l.4

Primary Examiner-George E. A. Halvosa Attorney, Agent, or Firm-Stevens, Davis, Miller & Mosher [57] ABSTRACT A brake assembly comprising a brake housing adapted for attachment to a wheel of a wheel assembly for rotation with the wheel. The brake housing has oppositely disposed annular braking surfaces spaced apart to provide an annular gap therebetween Brake shoes are located between the annular braking surfaces and are capable of movement towards or away from one another but held against circumferential movement by co-operating with a fixed support. Brake shoe operating members are disposed between the brake shoes and are movable by a brake actuator to move the brake shoes away from one another to cause each brake shoe to contact the adjacent annular braking surface of the brake housing to effect braking, the brake shoes being removable or replaceable from or into the annular gap in the radial direction thereof without dismantling the brake assembly.

21 Claims, 32 Drawing Figures PATENTEB W 2 7 5 SHEET M NN mwww

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QQN @QN WWN mww PATENTED 3,885,650

sum 16 256, I Z65 257, 255, 26.4 M l Z73 Z739} Z66 I SPREADING DISC BRAKE WITH REMOVABLE SHOES This application is a continuation-in-part of my application Ser. No. 73,566, filed Sept. 18, 1970, now abandoned.

This invention relates to brakes comprising oppositely disposed circular members spaced apart to provide an annular gap therebetween the inner side of each said circular member providing an annular braking surface, said circular members being attachable to so as to be rotatable jointly with for example the wheel of a wheel assembly, pairs of brake shoes disposed in the annular gap the friction linings of the shoes of each pair facing the braking surface of the adjacent circular member and means disposed between the brake shoes and operable by brake actuating means to effect movement of the brake shoes of each pair in a direction opposite to one another to cause said brake shoes to contact the braking surface of the adjacent circular member to effect braking.

The invention has for an object to provide improvements generally in the construction of brakes as above referred to.

According to the invention a brake assembly is proided comprising oppositely disposed circular members spaced apart to provide an annular gap therebetween the inner side of each said circular member providing an annular braking surface, said circular members being attachable to so as to be rotatable jointly with a wheel of a wheel assembly or other rotatable part to be braked, pairs of brake shoes disposed in the annular gap the friction faces of the shoes of each pair facing the braking surface of the adjacent circular member, a fixed member or members adapted to be secured to a stationary part of the wheel assembly or other part to be braked, brake shoe operating means disposed between the brake shoes and operable by brake actuating means to effect movement of the brake shoes of each pair in a direction opposite to one another to cause said shoes to contact the braking surface of the adjacent circular member to effect braking, the brake shoes being removable or replaceable from or into the annular gap in the radial direction thereof without dismantling the brake assembly.

The circular members provide in effect an annulus of channel section hereinafter for convenience referred to as a brake housing, which advantageously is open around the outer circumference whereby the brake shoes can be inserted or removed in a radial direction into or out of the annular gap. The circular members can be formed integral with one another or can be formed separately and subsequently secured together to provide a brake housing of unitary construction.

The brake shoes are of arcuate form and constructed so that a practical maximum braking area is obtained commensurate with the general construction of the brake. Two or more pairs of brake shoes can be provided.

The brake shoe operating means is adapted to operate with a camming action to effect the separating movement of the shoes against the action of pull-off springs, the individual brake shoes of a pair being for example interconnected by the pull-off springs. The brake shoe operating means thus includes a ball or roller and ramp arrangement to provide the camming action. For example, the ball and ramp mechanism can consist of two rings. disposed side by side concentric with the circular members and disposed in a space between the pairs of brake shoes. The facing sides of the rings are provided with projections which form ramps, balls or rollers being interposed between the ramps of the pair of rings. By effecting relative angular movement between the pair of rings in the appropriate direc tion by the brake actuating means the pair of rings can be moved in a direction away from one another each ring moving the brake shoes adjacent thereto into contact with the appropriate brake shoes. Each ring of the pair of rings can be in one piece. Advantageously however each ring comprises at least two portions separated on a diameter, thus permitting the rings to be withdrawn from or inserted into the brake housing gap in a radial direction.

The fixed member of the brake assembly is provided with means for supporting the brake shoes against circumferential movement under the drag forces arising during a braking operation. The fixed member can for example be provided with flanges which extend over the open side of the brake housing each brake shoe having abutments which engage adjacent circumferentially spaced edges of the flanges. Advantageously the brake shoes and the flanges of the fixed member are constructed so that the brake shoes are restrained against radial displacement. The number of flanges or other means provided is dependent upon the number of pairs of brake shoes. All or some of the flanges or other means are removable or mounted so that the same can be moved clear of the brake housing to permit withdrawal or insertion of the brake shoes and/or rings of the brake shoe operating means.

In order to facilitate the operation of the brake shoe operating means, means are advantageously provided between the faces of the angularly movable members of the brake shoe operating means and the adjacent faces of the brake shoes. For example ball or roller bearings are disposed between the said adjacent faces as disclosed in the specification of co-pending application No.

Embodiments of the invention will now be described by way of example with reference to the accompanying drawings in which:

FIGS. I and 2 are fragmentary views in section, of respectively a conventional disc brake and brake according to the invention, the views being used to compare the ratios of expansion of the respective brakes,

FIGS. 3 and 4 show a brake according to one embodiment of the invention, FIG. 3 being a view on the line C-D in FIG. 4 and FIG. 4 a view on the line A-B in FIG. 3,

FIG. 5 is a view on the line E-F in FIG. 6 showing enlarged, part of the brake shoe operating means,

FIG. 6 is a view on the line G-I-I in FIG. 7,

FIG. 7 is a view as seen from the right of FIG. 6, and partly in section,

FIG. 8 is a view of the brake as seen from the top of FIG. 3,

FIGS. 9 and 10 are views of a brake according to a second embodiment of the invention, FIG. 9 being a view on the line .l-K in FIG. 10 and FIG. 10 on the line L-M in FIG. 9,

FIG. 11 is a fragmentary view on the line N-O in FIG. 10,

FIG. 12 is a view on the line P-Q in FIG. 9,

FIGS. l3, l4 and 15 show a brake construction according to a still further embodiment, FIG. I3 being a section on the line AB in FIG. 14, FIG. 14 being a sec tion on the line C-D in FIG. 13 and FIG. 15 a top plan view of FIG. 14,

FIG. 16 is a top plan view of a brake generally similar to that of FIGS. 13 to 15 but showing alternative brake actuating means,

FIG. 17 is a view on the line G-H in FIG. 16,

FIG. 18 is an enlarged fragmentary view on the line E-F in FIG. 14.

FIG. 19 is a fragmentary section of the brake,

FIG. 20 is a section showing a further construction of brake,

FIGS. 21 and 22 are views of a brake according to still another embodiment of the invention, FIG. 22 being a view on the line R-S in FIG. 21.

FIGS. 23 and 24 are exploded views of a further embodiment of the invention. FIG. 24 is an enlarged detail of FIG. 23,

FIGS. 25 to 28 show diagrams for the brake of FIGS. 23 and 24 taken during a practical test.

FIGS. 29 to 32 show a further embodiment of the invention, FIG. 29 being a section on the line AB in FIG. 30,

FIG. 31 is an enlarged view of a part of the actuating means in FIG. 29,

FIG. 32 shows an embodiment of alternating actuating means.

The brake of the present invention is constructed to provide a practical maximum braking area commensurate with the brake design. Thus the brake shoes extend over the major portion of the braking surfaces of annular braking surfaces of a brake housing adapted to rotate with a wheel of a wheel assembly or other rotating part to be braked and is thus distinct from the more well known and conventional form of disc brake of the spot type. FIGS. 1 and 2 of the accompanying drawings are used to indicate certain advantages obtained by brake construction of the invention over spot type disc brakes.

FIG. 1 shows diagrammatically a spot type disc brake. The reference numeral 1 indicates a rotating hollow cast brake disc. 2 and 3 are the brake pads which are normally fixed to metal backing plates 4 and and which during the braking operation are pressed against the brake disc 1. Under thermal strain the rotating brake disc 1 expands in the direction of arrows 6 and 7, the brake linings with backing plates in direction of arrows 8 and 9. The opposed directions of the arrows 6 and 8 and 7 and 9 respectively indicate the change in the play of the lining and the friction surface with the heated brake so that the regulation of the clearance of the brake has to be done according to these proportions. These overlapping expansions are the primary reason for the difficulty in obtaining a mechanical actuation with a conventional disc brake and in addition the high specific surface capacity is the reason why the conventional spot type disc brake is unsuitable for heavy duty requirements. e.g., for commercial or other heavy motor vehicles. The brake principle according to the invention is shown diagrammatically in FIG. 2. The brake includes a brake housing having radial ribs, the brake shoes 11 and 12 with brakes linings l3 and 14. During operation when the brake becomes heated the brake housing 10 expands in the direction of arrows l5, 16 the brake shoes 11 and 12 with brake linings l3 and 14 expand in the direction of arrows l7 and 18. The clearance marked with the double-arrows 19 and 20 is essentially kept as indicate double-arrows I9 and 20' after expansion of the heated brake elements.

The brake construction shown in FIGS. 3 to 8 is particularly suitable for commercial or other heavy duty vehicles. The disc brake assembly is fitted to the wheel assembly comprising wheel axle 21 drive shaft 22 and wheel 25 with hub 24 mounted on roller bearings 23. The hub 24 has a ring of studs 26 which secure the brake housing 27 thereto so as to be rotatable with the hub. The studs 26 screw into tapped holes in bosses on the external surface of one side of the brake housing. The brake housing 27 is an integral structure and consists of an annular member of channel section which is disposed with its open outer peripheral side radially outwards. The opposite inner walls of the channel section provide annular braking surfaces 27a, 27b respectively. A plurality of circumferentially spaced ribs 27 each extend around the outer surface of the brake housing 27 to promote cooling of the brake. A fixed bracket 28 is secured by a ring of bolts to a fixed flange of the wheel assembly so as to be non-rotatable. The fixed bracket is in the form of a four arm spider (see FIG. 8), and has four flanges 28,, 28 28 28., respectively which are equally angularly spaced from one another and each extending over the open side of the brake housing. The flanges 28 and 28. are disposed diametrically opposite one another and are each pivotally mounted on the fixed bracket so that they can be turned in a clockwise direction from the position shown in FIG. 3 to a position in which the open side of the brake housing is uncovered. This permits the insertion or removal of the brake shoes. Each flange is secured in the operative position by a bolt as shown in FIG. 3.

Disposed within the gap between the braking surfaces of the brake housing are four pairs of brake shoes 30. Each pair of brake shoes consists of an outside and an inside disposed brake shoe. The shoes are each of arcuate form and have a lining of friction material on one side. The brake shoes are assembled with the friction linings facing the braking surfaces of the brake housing the brake shoes of each pair being movable in a direction away from one another to bring the friction linings of each pair into contact with the oppositely disposed braking surfaces of the brake housing by brake shoe operating means. The brake shoes are restrained against circumferential displacement under the drag forces created by contact of the friction linings with the braking surfaces of the brake housing during a braking operation by providing each shoe with a pair of spaced shoulders the spacing of the shoulders being such that when the brake shoes are assembled the shoulders are positioned one at either circumferential end of a flange 28,, 28 28 or 28 the flange ends each providing an abutment for the brake shoe shoulders. The circumferential length of the brake shoes is such that a maximum braking area is obtained commensurate with the general brake construction. The number of flanges on the fixed bracket is dependent upon the number of pairs of brake shoes provided. It is however necessary to have sufficient flanges to provide the requisite number of abutments for the pairs of shoulders on the brake shoes. Thus in FIG. 3 four flanges are shown which provide eight abutments for the eight shoulders of the four brake shoes adjacent one side of the brake housing and the eight shoulders of the four brake shoes adjacent the other side of the brake housing.

The brake shoe operating means is disposed within the brake housing and between the pairs of brake shoes the said means operating with a camming action to effect the separating movement of the shoes of each pair. The brake shoe operating means incorporates a ball or roller and ramp mechanism as now described. Two rings 31 and 31 having an inside diameter greater than the outside diameter of the brake housing are arranged side by side between the pairs of brake shoes. The sides of the rings facing one another are each provided with a plurality of projections in the form of ramps the ring 31 having ramps 31;; and ring 31 the ramps 31, balls 32 being disposed between the ramps as shown in FIG. 5. The ring 31 has a thrust member 33 secured thereto having a socket 33 at one end, the ring 31 having a similar thrust member 33 with a socket 33 at its free end. An actuating arm 35 is pivotally mounted on a pivot pin 35, carried by a lug on the fixed bracket 28. The actuating arm has two sockets 35 35 the socket 35, facing the socket 33 of the thrust member 33 the socket 35 facing the socket 33 of thrust member 33 A tappet 34 extends between the sockets 35 33 and a tappet 34 extends between the sockets 33 and 35 The actuating arm 35 has a third socket 35 which receives one end of an actuating rod 29 the other end of which is connected to the diaphragm of a diaphragm type pneumatic cylinder 29 forming the brake actuating means, the rod 29 extending parallel to the axis of rotation of the wheel and is guided by a bearing extension 28 The pneumatic cylinder 29 is carried by the fixed bracket 28 of the brake assembly and is connectable to the pneumatic system on the vehicle. When the pneumatic cylinder is operated the diaphragm movement slides the actuating rod 29, outwardly (downwards in FIG. 7). This causes the arm 35 to turn in a clockwise direction (FIG. 7) with the result that the rings 31 and 31 are moved angularly relative to one another in opposite directions. The rings thus move away from one another due to the ball or roller and ramps. Each ring thus moves the adjacent brake shoes into contact with the braking surfaces of the brake housing against the action of the pull-off springs 41 a number of which are provided around the brake shoes. To facilitate the actuation of the brake shoes, ball bearings are provided between the rings 31,, 31 and the brake shoes. The ball bearing consisting of outer race 37 inner race 40 and balls 39 is disposed between the ring 31 and the appropriate brake shoes, a similar bearing consisting of the outer race 36 inner race 39 and balls 38; being disposed between ring 31 and the appropriate brake shoes.

FIGS. 9 to 12 of the drawings show a brake construction particularly suitable for use on private vehicles. The brake assembly includes a brake housing 45 which is of integral construction and consists of an annular member of channel section adapted to be secured by a ring of studs to the wheel hub 46 driven by the wheel axle 47. The base of the brake housing has apertures 45, and the external surfaces have circumferentially spaced ribs 45, to promote the circulation of air for cooling. The arrows 62, 63, 64, 65 and 66 in FIG. 9 show the path of the cooling air through and around the brake, The opposite inner annular surfaces of the brake housing 45 45 respectively each provide an annular braking surface. Disposed within the gap between the annular braking surfaces of the brake housing are two pairs of brake shoes 43 each of arcuate form and having a lining of friction material on one face, the shoes being arranged with the friction linings facing the adjacent annular braking surface of the brake housing. Each pair of brake shoes consists of an outside and an inside disposed brake shoe. The arcuate length of the shoes is such that a maximum braking area is obtained. A fixed bracket 42 provided by the wheel axle housing cover has two diametrically opposite flanges 42., 42 respectively each of which extends over the open periphery of the brake housing. The brake shoes are each formed with shoulders the shoulders on a shoe being so positioned in relation to one another that when the brake shoes are assembled the shoulders bear against the adjacent end of a flange, said ends providing fixed abutments whereby the brake shoes are restrained against circumferential movement under the drag forces created during a braking action the brake shoes of each pair being capable however of movement towards or away from one another.

The brake shoe operating means is operated by hydraulically actuated brake actuating means. The brake shoe operating means consists of two rings 50, 51 respectively each of L section, the rings being assembled so that they partially overlap to provide between them an annular space a into which hydraulic liquid from the hydraulic system on the vehicle is delivered through a brake pipe connection 48. 0 type sealing rings 49 are provided to seal the space 500. The admission of the hydraulic liquid into the annular space 50a causes the rings 50, 51 to slide relative to one another in opposite directions which movement is in turn transmitted to a further pair of rings 52,, 53 each of which is interposed between respectively the sliding ring 50 and the appropriate brake shoes and the sliding ring 51 and the brake shoes appropriate thereto. The brake shoes 43 of each pair of brake shoes are therefore moved away from one another and into contact with the annular braking surfaces of the brake housing to effect a braking action. A plurality of circumferentially spaced pull-off springs 54 are provided which operate to pull the brake shoes towards one another to release the brake when the hydraulic liquid is released. Automatically operating brake adjusting means are provided. This is indicated generally by reference numeral 59 and can be of the friction type the co-operating members of which are secured to the rings 52 53 by respectively studs 60, 61. The adjusting means can be assembled through the apertures 45, in the brake housing.

The brake is also provided with means for restraining the brake shoes against displacement in a radially outward direction. For this purpose the fixed bracket 42 has two lugs 42;, disposed diametrically opposite one another and equally spaced from the flanges 42,. Each lug has an arm 44 secured thereto by a bolt each arm extending over the open periphery of the brake housing to engage adjacent outer edge portions of the brake shoes. The arms 44 are advantageously resilient, for example made of spring steel, to reduce or eliminate brake rattle or chatter. By removing the arms 44 the brake shoes can be inserted into or removed from the brake housing without completely dismantling the brake assembly.

The brake of the present embodiment can be adapted for mechanical operation so that the same can be used as a hand brake in addition to the power operation by hydraulic liquid, the mechanical and hydraulic means being operable independently of one another. As 

1. A brake assembly comprising: a brake housing comprising an annular member having an annular gap of channel-like cross-section open on its radially exterior side, the opposite inner sides of said channel-like gap providing annular braking surfaces, said brake housing being attachable to be rotatable jointly with a wheel of an assembly to be braked; pairs of segmental brake shoes disposed from the radially exterior side into the channel-like gap having friction faces facing the adjacent braking surfaces, each of said pairs of brake shoes being attached to a member attached to a carrier adapted to be secured to a stationary part of the assembly, said members extending over the channel-like gap, and aT least two oppositely disposed members movable with respect to said carrier for uncovering the portion of the channel-like gap over which said members extend, said brake shoes being insertable into the gap from the radially exterior direction after partly uncovering said gap with the movable members without dismantling the brake assembly; brake shoe operating means separate from the brake shoes comprising actuator rings and actuating means for spreading apart said rings which are arranged between the pairs of brake shoes including linking members for causing said shoes to contact the braking surfaces of the brake housing.
 2. A brake assembly comprising: a brake housing comprising oppositely disposed circular members spaced apart to provide an annular gap therebetween open on its radially exterior side, the inner side of each circular member comprising an annular braking surface, said brake housing being attachable to be rotatable jointly with a wheel of an assembly to be braked; pairs of segmental brake shoes disposed from the radially exterior side into the annular gap having friction faces facing corresponding braking surfaces, each of said pairs being supported by a member attached to a multiple arm spider adapted to be secured to a stationary part of the assembly, said members extending over the gap, and at least two oppositely disposed members movable with respect to said spider for uncovering the portion of the gap over which said members extend, the said brake shoes being insertable into the gap in the radially exterior direction after partly uncovering said gap with the movable members without dismantling the brake assembly; a brake shoe operating means separate from the brake shoes comprising two actuator rings and actuating means for spreading apart said rings which are arranged side by side between the pairs of brake shoes including linking members for causing said shoes to contact the braking surfaces of the brake housing.
 3. A brake assembly according to claim 2, wherein the movable members are pivotally mounted on the associated spider arms.
 4. A brake assembly according to claim 2, wherein the movable members are detachable from the associated spider arms.
 5. A brake assembly according to claim 2, wherein the two actuator rings are provided with complementary ramps and interposed therebetween are rotatable bearings so that a relative angular movement between said rings by the actuating means causes said rings to spread apart from one another.
 6. A brake assembly according to claim 5, wherein a thrust ring is interposed between at least one of the said actuator rings and the adjacent brake shoes.
 7. A brake assembly according to claim 6, wherein rotatable bearing members are interposed between an actuator ring and the adjacent thrust ring.
 8. A brake assembly according to claim 7, wherein radially inner rotatable bearings and outer rotatable bearings are provided between the actuator ring and adjacent thrust ring.
 9. A brake assembly comprising: a brake housing comprising two annular members secured together and forming an annular gap of channel-like cross-section open on its radially exterior side, the opposite inner sides of said channel-like gap providing annular braking surfaces, said brake housing attachable to be rotatable jointly with a wheel of an assembly to be braked; two pairs of semi-circular brake shoes disposed from the radially exterior side into the channel-like gap, having friction faces facing the adjacent braking surfaces, each of said pairs of brake shoes supported by two diametrically opposite disposed brackets attached to a stationary part of the assembly, said brackets extending over the channel-like gap, adjacent ends of the brake shoes are coupled together by removable connecting means, said brake shoes being insertable into the gap from the radially exterior direction after removing said connecting means without dismantling the brake assembly; brake shoe operating means separaTe from the brake shoes, comprising actuator rings and actuating means for spreading apart said rings which are arranged between the pairs of brake shoes including linking members for causing said shoes to contact the braking surfaces of the brake housing.
 10. A brake assembly according to claim 9, wherein the two actuator rings are provided with complementary ramps and interposed therebetween are rotatable bearings so that a relative angular movement between said rings by the actuating means causes said rings to spread apart from one another.
 11. A brake assembly according to claim 10, wherein a thrust ring is interposed between each actuating ring and the adjacent brake shoes, and pull-off means interconnected between the thrust rings.
 12. A brake assembly according to claim 11, wherein the thrust rings are secured by the said brackets.
 13. A brake assembly according to claim 12 wherein ball bearings are disposed at the radially inner circumference of each actuating ring, the ball bearings being disposed between each actuating ring and the adjacent thrust ring.
 14. A brake assembly according to claim 12 wherein ball bearings are disposed at the radially inner and radially outer circumference of each ring, the ball bearings being disposed between each actuating ring and the adjacent thrust ring.
 15. A brake assembly according to claim 9, wherein said actuating means include hydraulic members bearing against lugs on the actuating rings for causing said actuating rings to rotate angularly in opposite directions.
 16. A brake assembly according to claim 9, wherein said actuating means include a lever and connecting means between said lever and said actuating rings for causing said actuating rings to rotate angularly in opposite directions when turning said lever.
 17. A brake assembly comprising: a brake housing comprising two annular covers bolted together and to the hub of a wheel at their inner circumferences to be rotable therewith, said covers forming an annular gap therebetween open on its radially exterior side, the opposite inner sides of said two covers providing annular braking surfaces; two pairs of semi-circular brake shoes disposed from the radially exterior side into said gap having friction linings facing the adjacent braking surfaces, each brake shoe having a shoulder, the shoulders of complementary brake shoes being oppositely disposed and the flank ends of said brake shoes providing abutments at one another, said flank ends being vertically situated to the line connecting the shoulders, each of said pairs of brake shoes being supported by two diametrically opposite disposed brackets extending over said annular gap and being pivotally mounted on a stationary carrier, said pairs of brake shoes being insertable into the gap from the radially exterior direction after removing the brackets and thereby uncovering said gap without dismantling the brake assembly; brake shoe operating means separate from the brake shoes interposed therebetween and supported on said brackets and comprising two actuating rings and balls disposed between the actuating rings and within ramps formed in the actuating rings, thrust rings arranged between said actuating rings and the brake shoes and a plurality of ball bearings disposed between the thrust rings and the adjacent actuating ring at the radially inner and the radially outer circumferences of said rings, each of said thrust rings being formed with two diametrically opposite disposed shoulders providing an abutement for said thrust rings on said brackets.
 18. A brake assembly according to claim 17, wherein a double cam is disposed between rollers, the rollers being supported at extensions projecting outwardly from the circumference of the said actuating rings, the cam being mounted on a spindle rotably supported in said stationary carrier, a brake cylinder operating on said spindle so that when energising said cylinder said double cam is turned which causes the actuating rings to be angularly moved relative to each another.
 19. A brake assembly comprising: a brake housing comprising an annular member having an annular gap of channel-like cross-section open on its radially exterior side, the opposite inner sides of said channel-like gap providing annular braking surfaces, said brake housing being attachable to be rotatable jointly with a wheel of an assembly to be braked; at least one pair of segmental brake shoes disposed from the radially exterior side into the channel-like gap having friction faces facing the adjacent braking surfaces, means for moving said brake shoes into contact with said braking surfaces and means for non-rotatably supporting each pair of brake shoes in the gap comprising a fixed support means which carries members disposed over the gap and pivotable from over said gap to uncover a portion of the gap whereby the brake shoes are insertable into the gap without dismantling the brake shoe moving means.
 20. The brake assembly of claim 19 wherein said brake housing comprises two discs, each having a circular opening therein and an inwardly directed flange about the opening and the flanges are in abutting relationship with an annular gap extending radially outward therefrom.
 21. The brake assembly of claim 20 wherein said means for moving said brake shoes into contact with said braking surfaces is hydraulically actuated. 